using System;
using L=Science.Physics.GeneralPhysics;

namespace Serway.Chapter32
{
	/// <summary>
	/// Example04: What Happens to the Energy in the Inductor? 
	/// Consider once again the RL circuit shown in Figure 32.6. 
	/// Recall that the current in the right-hand loop decays 
	/// exponentially with time according to the 
	/// expression I = I_0\exp(-t/\tau), 
	/// where I_0 = E/R is the initial current in the circuit and
	/// \tau = L/R is the time constant.  
	/// Show that all the energy initially 
	/// stored in the magnetic field of the inductor appears as 
	/// internal energy in the resistor as the current decays to zero.
	/// </summary>
	public class Example04
	{
		public Example04()
		{
		}
		private string result;
		public string Result
		{
			get{return result;}
		}
		public void Compute()
		{
			result = "Read the book!";
		}
	}
}
